UNIPROT:P04637 - FACTA Search

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Query: UNIPROT:P04637 (p53)
77,613 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

After the identification of p73, a second homologue of the human p53 tumor suppressor gene has been reported and named p63/p73L/p51/p40/CUSP/KET. We have investigated the hypotheses that: (a) p63 is mutated in diverse types of human cancers; and (b) p63 functions in the same pathway as p53 and p73 in the process of carcinogenesis; therefore, mutations in these three genes would be mutually exclusive. We have analyzed the genomic structure of the p63 gene and have performed mutational analyses on 54 human cell lines using intronic primers flanking each exon. We have confirmed that the human p63 open reading frame encodes the same length of protein as murine p63 that was initially reported to be 39 amino acids longer than human p63. By mutational analysis, we have shown that DLD1 and SKOV3 cells have either heterozygous mutations or polymorphisms in the putative DNA binding domain of p63. In these cell lines, p63 is biallelically expressed. We conclude that mutations in the p63 gene are rare in human cell lines. The fact that DLD1 is abnormal for both p63 and p53 genes suggests that they may not be involved in the same tumor suppressor pathway.
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PMID:Mutational analysis of the p63/p73L/p51/p40/CUSP/KET gene in human cancer cell lines using intronic primers. 1048 47

The p51/p63/KET proteins were identified based on their strong homology to the tumour suppressor p53 and a related set of proteins termed p73. All these protein species were shown to activate transcription from at least some p53-responsive promoters. To evaluate a possible role of the transcriptionally active splicing variant p51A/p63gamma in tumour suppression, we determined whether viral oncoproteins that inactivate p53 might also target p51A. Neither the large T-antigen of simian vacuolating virus 40 (SV40) nor the E6 protein from human papillomavirus type 18 were found to inhibit p51A-mediated transcription, whereas they strongly suppress the activity of p53. Further, SV40 T-antigen directly interacts with p53 but not detectably with p51A. Finally, a cytoplasmic mutant (K128A) of SV40 T-antigen relocalizes p53 from the nucleus to the cytoplasm, but p51A remains in the nucleus when coexpressed with cytoplasmic T-antigen. These results strongly suggest that the inhibitory effect of these viral oncoproteins is specific for p53 and does not measurably affect p51A. Thus, unlike p53, p51A does not appear to be a necessary target in virus-induced cell transformation and may not exert a role comparable to p53 in tumour suppression.
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PMID:Failure of viral oncoproteins to target the p53-homologue p51A. 1056 58

Sequence-specific transactivation by p53 is essential to its role as a tumor suppressor. A modified tetracycline-inducible system was established to search for transcripts that were activated soon after p53 induction. Among 9,954 unique transcripts identified by serial analysis of gene expression, 34 were increased more than 10-fold; 31 of these had not previously been known to be regulated by p53. The transcription patterns of these genes, as well as previously described p53-regulated genes, were evaluated and classified in a panel of widely studied colorectal cancer cell lines. "Class I" genes were uniformly induced by p53 in all cell lines; "class II" genes were induced in a subset of the lines; and "class III" genes were not induced in any of the lines. These genes were also distinguished by the timing of their induction, their induction by clinically relevant chemotherapeutic agents, the absolute requirement for p53 in this induction, and their inducibility by p73, a p53 homolog. The results revealed substantial heterogeneity in the transcriptional responses to p53, even in cells derived from a single epithelial cell type, and pave the way to a deeper understanding of p53 tumor suppressor action.
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PMID:Identification and classification of p53-regulated genes. 1058 37

The p53-related genes, p51/p63 and p73, have been isolated respectively from cDNA libraries of skeletal muscle and the brain, and their structural features and biological functions have been compared. High expression of p51A (TAp63gamma) in the skeletal muscle tissue drove us to investigate a differentiation-inducible myoblastic cell line which showed increased p51A expression after differentiation induction. Tissue-specific expression was further confirmed by reverse transcriptase-polymerase chain reaction (RT - PCR) using primers specific for DeltaN (TA-domain lacking p51), p51A, and p51B expression. p51A alone induced erythrodifferentiation when expressed in the erythroleukemia line (Tg-gp55-1-2-3) expressing a temperature-sensitive mutant of p53, and induced remarkable apoptosis when wild-type p53 expression was induced by the temperature shift to 32 degrees C. Human p51A and p53 were introduced exogenously into the above erythroleukemia cells, and although their expression was rather low, both p51A and p53 proteins were induced by DNA-damaging treatment with UV and ActinomycinD. However, the protein-protein interactions analyzed by a yeast two-hybrid assay between p51 and p53, between p51 and p73, and between p51 and oncoproteins showed that p51 is functionally rather distant from p53. Extensive mutation analysis of p51/p63 in human tumors revealed only four mutations in 80 non-small cell lung carcinomas; two adenocarcinoma cases possessing Glu31His mutations in the transactivation domain (TA) domain, suggesting that p51/p63 is not a Knudson type tumor suppressor gene. Mutation and loss of heterozygosity (LOH) of p73, deregulated expression of p73 and loss of imprinting of p73 are also discussed.
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PMID:p53 family genes: structural comparison, expression and mutation. 1063 27

The newly identified p53 homolog p73 mimics the transcriptional function of p53. We have investigated the regulation of p73's transcriptional activity by p300/CREB binding protein (CBP). p73-p300 complexes were identified in HeLa cell extracts by cofractionation and coimmunoprecipitation assays. The p73-p300 interaction was confirmed in vitro by glutathione S-transferase-protein association assays and in vivo by coimmunoprecipitating the overexpressed p300 and p73 in human p53-free small-cell lung carcinoma H1299 or osteosarcoma Saos-2 cells. The N terminus but not the N-terminal truncation of p73 bound to the CH1 domain (amino acids [aa] 350 to 450) of p300/CBP. Accordingly, this p73 N-terminal deletion was unable to activate transcription or to induce apoptosis. Overexpression of either p300 or CBP stimulated transcription mediated by p73 but not its N-terminally deleted mutant in vivo. The N-terminal fragment from aa 19 to 597, but not the truncated fragment from aa 242 to 1700 of p300, reduced p73-mediated transcription markedly. p73-dependent transcription or apoptosis was partially impaired in either p300- or CBP-deficient human breast carcinoma MCF-7 or H1299 cells, suggesting that both coactivators mediate transcription by p73 in cells. These results demonstrate that the N terminus of p73 directly interacts with the N-terminal CH1 domain of p300/CBP to activate transcription.
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PMID:The N-terminal domain of p73 interacts with the CH1 domain of p300/CREB binding protein and mediates transcriptional activation and apoptosis. 1064 16

We have previously demonstrated that the human T-cell leukemia virus type 1 (HTLV-1) Tax oncoprotein represses the trans-activation function of p53 tumor suppressor protein. Recently, several proteins with sequence homology to p53 have been identified. In this study, we demonstrated that Tax represses the trans-activation functions of p73alpha, p73beta, and p51A, the p53-related proteins, as well as p53. Moreover, a mutant Tax of coactivator CBP-binding site (K88A), which activated NF-kappaB but not CREB pathway, could not repress the p73 nor p51 trans-activation functions, indicating that CBP-binding domain of Tax is essential for the suppression of their functions. Using proteins of Gal4-fused N-terminal region of p73 and p51, we showed that Tax-mediated inactivation of p73 or p51 requires for their N-terminal trans-activation domains. Furthermore, only the putative N-terminal trans-activation domains of them did not have enough transcriptional activities and their adjacent regions are essential for their full trans-activation, suggesting the existence of their second trans-activation subdomains. Thus, HTLV-1 Tax inactivated the p53-related proteins through their N-terminal trans-activation domains.
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PMID:Functional impairment of p73 and p51, the p53-related proteins, by the human T-cell leukemia virus type 1 Tax oncoprotein. 1069 1

Two p53-related genes, p73 and p51, were recently identified as structural homologues of the p53 tumor suppressor gene, suggesting that the roles of these two genes may be similar to those of p53, including growth suppression and induction of apoptosis. Here we show that introduction of p73 or p51 cDNAs into cultured human cancer cells suppressed colony formation in the presence of G418. We then examined the ability of various isoforms of p73 and p51 to activate transcription of a reporter gene. This assay showed that p73beta and p51A activated transcription through a consensus p53 binding sequence, while p73alpha and p51B isoforms minimally transactivated the p53 reporter gene. To characterize further the biological functions of the p53-related genes, we constructed recombinant adenoviruses containing the p73 and p51 cDNAs. Ad-p73beta and Ad-p51A induced endogenous p21 gene expression more effectively than Ad-p73alpha and Ad-p51B, respectively. To evaluate the mode of cell death induced by p53-related genes, Ad-p73 and Ad-p51 were used to infect human cancer cells. Infection of Ad-p73beta, Ad-p51A or Ad-p51B resulted in DNA fragmentation in a subset of cancer cell lines more efficiently than did infection of Ad-p53. We then examined the combined effect of each p53-related gene and the E1A oncogene in the induction of apoptosis. The E1A oncogene cooperated with p51 as well as p53 to induce apoptosis, while p73 resulted in a weak induction of apoptosis by E1A. Overall, apoptosis induction by p51B and p73alpha isoforms may be due to mechanisms other than transcriptional activation of p53-target genes. Our results suggest that p53-related genes are both similar to and different from p53 in their pathways leading to growth suppression.
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PMID:Adenovirus-mediated transfer of p53-related genes induces apoptosis of human cancer cells. 1076 4

The tumor suppressor gene p53 regulates multiple cellular responses to DNA damage, but the transcriptional targets that specify these responses are incompletely understood. We describe a Drosophila p53 homolog and demonstrate that it can activate transcription from a promoter containing binding sites for human p53. Dominant-negative forms of Drosophila p53 inhibit both transactivation in cultured cells and radiation-induced apoptosis in developing tissues. The cis-regulatory region of the proapoptotic gene reaper contains a radiation-inducible enhancer that includes a consensus p53 binding site. Drosophila p53 can activate transcription from this site in yeast and a multimer of this site is sufficient for radiation induction in vivo. These results indicate that reaper is a direct transcriptional target of Drosophila p53 following DNA damage.
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PMID:Drosophila p53 binds a damage response element at the reaper locus. 1077 60

We and others recently isolated a human p53 homologue (p40/p51/p63/p73L) and localized the gene to the distal long arm of chromosome 3. Here we sought to examine the role of p40/p73L, two variants lacking the N-terminal transactivation domain, in cancer. Fluorescent in situ hybridization (FISH) analysis revealed frequent amplification of this gene locus in primary squamous cell carcinoma of the lung and head and neck cancer cell lines. (We named this locus AIS for amplified in squamous cell carcinoma.) Furthermore, amplification of the AIS locus was accompanied by RNA and protein overexpression of a variant p68(AIS) lacking the terminal transactivation domain. Protein overexpression in primary lung tumors was limited to squamous cell carcinoma and tumors known to harbor a high frequency of p53 mutations. Overexpression of p40(AIS) in Rat 1a cells led to an increase in soft agar growth and tumor size in mice. Our results support the idea that AIS plays an oncogenic role in human cancer.
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PMID:AIS is an oncogene amplified in squamous cell carcinoma. 1080 2

p51A, or TAp63gamma, a translation product of gene p51, or p63, was identified as a homolog of p53 in its primary structure and transactivating function. p53 plays a decision-making role in inducing either cell cycle arrest or apoptosis in response to DNA damage, and thereby preserves genome integrity of living cells. To compare the biological activities between p51A and p53, cell lines with low-level, constitutive expression of each protein were obtained by cDNA transfection of mouse erythroleukemic cells. Production of p51A with an apparent molecular mass of 57-kilodalton (kD) accompanied induction of p21waf1 and appearance of hemoglobin-producing cells. After DNA-damaging treatment either with ultraviolet light (UV) irradiation or with actinomycin D, the p51A protein accumulated in time courses corresponding to those of wild-type p53, and caused an increase in the hemoglobin-positive cell count. In contrast, p53-accumulated cells underwent apoptosis without exhibiting the feature of erythroid differentiation. The mode of p21waf1 and Bax-alpha upregulations varied between p51A- and p53-expressing cells and between the types of DNA damage. These results suggest the possibility that p51A induces differentiation under genotoxic circumstances. There may be cellular factors that control p51A protein stability and transactivating ability.
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PMID:p51A (TAp63gamma), a p53 homolog, accumulates in response to DNA damage for cell regulation. 1087 67

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